mirror of
https://github.com/Atmosphere-NX/Atmosphere.git
synced 2024-11-10 14:11:43 +00:00
460 lines
16 KiB
C++
460 lines
16 KiB
C++
/*
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* Copyright (c) 2018 Atmosphère-NX
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms and conditions of the GNU General Public License,
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* version 2, as published by the Free Software Foundation.
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*
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* This program is distributed in the hope it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "tma_usb_comms.hpp"
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/* TODO: Is this actually allowed? */
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#define ATMOSPHERE_INTERFACE_PROTOCOL 0xFC
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static std::atomic<bool> g_initialized = false;
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static UsbDsInterface *g_interface;
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static UsbDsEndpoint *g_endpoint_in, *g_endpoint_out;
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/* USB State Change Tracking. */
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static HosThread g_state_change_thread;
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static WaitableManagerBase *g_state_change_manager = nullptr;
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static void (*g_state_change_callback)(void *arg, u32 state);
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static void *g_state_change_arg;
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/* USB Send/Receive mutexes. */
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static HosMutex g_send_mutex;
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static HosMutex g_recv_mutex;
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/* Static arrays to do USB DMA into. */
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static constexpr size_t DmaBufferAlign = 0x1000;
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static constexpr size_t HeaderBufferSize = DmaBufferAlign;
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static constexpr size_t DataBufferSize = 0x18000;
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static __attribute__((aligned(DmaBufferAlign))) u8 g_header_buffer[HeaderBufferSize];
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static __attribute__((aligned(DmaBufferAlign))) u8 g_recv_data_buf[DataBufferSize];
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static __attribute__((aligned(DmaBufferAlign))) u8 g_send_data_buf[DataBufferSize];
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/* Taken from libnx usb comms. */
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static Result _usbCommsInterfaceInit1x()
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{
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Result rc = 0;
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struct usb_interface_descriptor interface_descriptor = {
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.bLength = USB_DT_INTERFACE_SIZE,
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.bDescriptorType = USB_DT_INTERFACE,
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.bInterfaceNumber = 4,
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.bInterfaceClass = USB_CLASS_VENDOR_SPEC,
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.bInterfaceSubClass = USB_CLASS_VENDOR_SPEC,
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.bInterfaceProtocol = ATMOSPHERE_INTERFACE_PROTOCOL,
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};
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struct usb_endpoint_descriptor endpoint_descriptor_in = {
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.bLength = USB_DT_ENDPOINT_SIZE,
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.bDescriptorType = USB_DT_ENDPOINT,
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.bEndpointAddress = USB_ENDPOINT_IN,
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.bmAttributes = USB_TRANSFER_TYPE_BULK,
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.wMaxPacketSize = 0x200,
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};
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struct usb_endpoint_descriptor endpoint_descriptor_out = {
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.bLength = USB_DT_ENDPOINT_SIZE,
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.bDescriptorType = USB_DT_ENDPOINT,
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.bEndpointAddress = USB_ENDPOINT_OUT,
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.bmAttributes = USB_TRANSFER_TYPE_BULK,
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.wMaxPacketSize = 0x200,
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};
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if (R_FAILED(rc)) return rc;
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//Setup interface.
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rc = usbDsGetDsInterface(&g_interface, &interface_descriptor, "usb");
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if (R_FAILED(rc)) return rc;
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//Setup endpoints.
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rc = usbDsInterface_GetDsEndpoint(g_interface, &g_endpoint_in, &endpoint_descriptor_in);//device->host
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if (R_FAILED(rc)) return rc;
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rc = usbDsInterface_GetDsEndpoint(g_interface, &g_endpoint_out, &endpoint_descriptor_out);//host->device
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if (R_FAILED(rc)) return rc;
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return rc;
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}
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static Result _usbCommsInterfaceInit5x() {
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Result rc = 0;
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u8 iManufacturer, iProduct, iSerialNumber;
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static const u16 supported_langs[1] = {0x0409};
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// Send language descriptor
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rc = usbDsAddUsbLanguageStringDescriptor(NULL, supported_langs, sizeof(supported_langs)/sizeof(u16));
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// Send manufacturer
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if (R_SUCCEEDED(rc)) rc = usbDsAddUsbStringDescriptor(&iManufacturer, "Nintendo");
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// Send product
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if (R_SUCCEEDED(rc)) rc = usbDsAddUsbStringDescriptor(&iProduct, "Nintendo Switch");
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// Send serial number
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if (R_SUCCEEDED(rc)) rc = usbDsAddUsbStringDescriptor(&iSerialNumber, "SerialNumber");
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// Send device descriptors
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struct usb_device_descriptor device_descriptor = {
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.bLength = USB_DT_DEVICE_SIZE,
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.bDescriptorType = USB_DT_DEVICE,
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.bcdUSB = 0x0110,
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.bDeviceClass = 0x00,
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.bDeviceSubClass = 0x00,
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.bDeviceProtocol = 0x00,
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.bMaxPacketSize0 = 0x40,
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.idVendor = 0x057e,
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.idProduct = 0x3000,
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.bcdDevice = 0x0100,
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.iManufacturer = iManufacturer,
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.iProduct = iProduct,
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.iSerialNumber = iSerialNumber,
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.bNumConfigurations = 0x01
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};
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// Full Speed is USB 1.1
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if (R_SUCCEEDED(rc)) rc = usbDsSetUsbDeviceDescriptor(UsbDeviceSpeed_Full, &device_descriptor);
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// High Speed is USB 2.0
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device_descriptor.bcdUSB = 0x0200;
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if (R_SUCCEEDED(rc)) rc = usbDsSetUsbDeviceDescriptor(UsbDeviceSpeed_High, &device_descriptor);
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// Super Speed is USB 3.0
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device_descriptor.bcdUSB = 0x0300;
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// Upgrade packet size to 512
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device_descriptor.bMaxPacketSize0 = 0x09;
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if (R_SUCCEEDED(rc)) rc = usbDsSetUsbDeviceDescriptor(UsbDeviceSpeed_Super, &device_descriptor);
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// Define Binary Object Store
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u8 bos[0x16] = {
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0x05, // .bLength
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USB_DT_BOS, // .bDescriptorType
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0x16, 0x00, // .wTotalLength
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0x02, // .bNumDeviceCaps
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// USB 2.0
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0x07, // .bLength
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USB_DT_DEVICE_CAPABILITY, // .bDescriptorType
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0x02, // .bDevCapabilityType
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0x02, 0x00, 0x00, 0x00, // dev_capability_data
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// USB 3.0
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0x0A, // .bLength
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USB_DT_DEVICE_CAPABILITY, // .bDescriptorType
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0x03, // .bDevCapabilityType
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0x00, 0x0E, 0x00, 0x03, 0x00, 0x00, 0x00
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};
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if (R_SUCCEEDED(rc)) rc = usbDsSetBinaryObjectStore(bos, sizeof(bos));
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if (R_FAILED(rc)) return rc;
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struct usb_interface_descriptor interface_descriptor = {
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.bLength = USB_DT_INTERFACE_SIZE,
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.bDescriptorType = USB_DT_INTERFACE,
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.bInterfaceNumber = 4,
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.bNumEndpoints = 2,
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.bInterfaceClass = USB_CLASS_VENDOR_SPEC,
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.bInterfaceSubClass = USB_CLASS_VENDOR_SPEC,
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.bInterfaceProtocol = ATMOSPHERE_INTERFACE_PROTOCOL,
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};
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struct usb_endpoint_descriptor endpoint_descriptor_in = {
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.bLength = USB_DT_ENDPOINT_SIZE,
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.bDescriptorType = USB_DT_ENDPOINT,
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.bEndpointAddress = USB_ENDPOINT_IN,
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.bmAttributes = USB_TRANSFER_TYPE_BULK,
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.wMaxPacketSize = 0x40,
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};
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struct usb_endpoint_descriptor endpoint_descriptor_out = {
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.bLength = USB_DT_ENDPOINT_SIZE,
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.bDescriptorType = USB_DT_ENDPOINT,
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.bEndpointAddress = USB_ENDPOINT_OUT,
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.bmAttributes = USB_TRANSFER_TYPE_BULK,
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.wMaxPacketSize = 0x40,
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};
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struct usb_ss_endpoint_companion_descriptor endpoint_companion = {
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.bLength = sizeof(struct usb_ss_endpoint_companion_descriptor),
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.bDescriptorType = USB_DT_SS_ENDPOINT_COMPANION,
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.bMaxBurst = 0x0F,
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.bmAttributes = 0x00,
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.wBytesPerInterval = 0x00,
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};
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rc = usbDsRegisterInterface(&g_interface);
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if (R_FAILED(rc)) return rc;
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interface_descriptor.bInterfaceNumber = g_interface->interface_index;
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endpoint_descriptor_in.bEndpointAddress += interface_descriptor.bInterfaceNumber + 1;
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endpoint_descriptor_out.bEndpointAddress += interface_descriptor.bInterfaceNumber + 1;
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// Full Speed Config
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rc = usbDsInterface_AppendConfigurationData(g_interface, UsbDeviceSpeed_Full, &interface_descriptor, USB_DT_INTERFACE_SIZE);
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if (R_FAILED(rc)) return rc;
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rc = usbDsInterface_AppendConfigurationData(g_interface, UsbDeviceSpeed_Full, &endpoint_descriptor_in, USB_DT_ENDPOINT_SIZE);
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if (R_FAILED(rc)) return rc;
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rc = usbDsInterface_AppendConfigurationData(g_interface, UsbDeviceSpeed_Full, &endpoint_descriptor_out, USB_DT_ENDPOINT_SIZE);
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if (R_FAILED(rc)) return rc;
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// High Speed Config
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endpoint_descriptor_in.wMaxPacketSize = 0x200;
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endpoint_descriptor_out.wMaxPacketSize = 0x200;
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rc = usbDsInterface_AppendConfigurationData(g_interface, UsbDeviceSpeed_High, &interface_descriptor, USB_DT_INTERFACE_SIZE);
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if (R_FAILED(rc)) return rc;
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rc = usbDsInterface_AppendConfigurationData(g_interface, UsbDeviceSpeed_High, &endpoint_descriptor_in, USB_DT_ENDPOINT_SIZE);
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if (R_FAILED(rc)) return rc;
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rc = usbDsInterface_AppendConfigurationData(g_interface, UsbDeviceSpeed_High, &endpoint_descriptor_out, USB_DT_ENDPOINT_SIZE);
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if (R_FAILED(rc)) return rc;
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// Super Speed Config
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endpoint_descriptor_in.wMaxPacketSize = 0x400;
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endpoint_descriptor_out.wMaxPacketSize = 0x400;
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rc = usbDsInterface_AppendConfigurationData(g_interface, UsbDeviceSpeed_Super, &interface_descriptor, USB_DT_INTERFACE_SIZE);
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if (R_FAILED(rc)) return rc;
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rc = usbDsInterface_AppendConfigurationData(g_interface, UsbDeviceSpeed_Super, &endpoint_descriptor_in, USB_DT_ENDPOINT_SIZE);
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if (R_FAILED(rc)) return rc;
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rc = usbDsInterface_AppendConfigurationData(g_interface, UsbDeviceSpeed_Super, &endpoint_companion, USB_DT_SS_ENDPOINT_COMPANION_SIZE);
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if (R_FAILED(rc)) return rc;
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rc = usbDsInterface_AppendConfigurationData(g_interface, UsbDeviceSpeed_Super, &endpoint_descriptor_out, USB_DT_ENDPOINT_SIZE);
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if (R_FAILED(rc)) return rc;
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rc = usbDsInterface_AppendConfigurationData(g_interface, UsbDeviceSpeed_Super, &endpoint_companion, USB_DT_SS_ENDPOINT_COMPANION_SIZE);
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if (R_FAILED(rc)) return rc;
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//Setup endpoints.
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rc = usbDsInterface_RegisterEndpoint(g_interface, &g_endpoint_in, endpoint_descriptor_in.bEndpointAddress);
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if (R_FAILED(rc)) return rc;
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rc = usbDsInterface_RegisterEndpoint(g_interface, &g_endpoint_out, endpoint_descriptor_out.bEndpointAddress);
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if (R_FAILED(rc)) return rc;
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return rc;
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}
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/* Actual function implementations. */
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TmaConnResult TmaUsbComms::Initialize() {
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TmaConnResult res = TmaConnResult::Success;
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if (g_initialized) {
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std::abort();
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}
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Result rc = usbDsInitialize();
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/* Perform interface setup. */
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if (R_SUCCEEDED(rc)) {
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if (GetRuntimeFirmwareVersion() >= FirmwareVersion_500) {
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rc = _usbCommsInterfaceInit5x();
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} else {
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rc = _usbCommsInterfaceInit1x();
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}
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}
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/* Start the state change thread. */
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/*if (R_SUCCEEDED(rc)) {
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rc = g_state_change_thread.Initialize(&TmaUsbComms::UsbStateChangeThreadFunc, nullptr, 0x4000, 38);
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if (R_SUCCEEDED(rc)) {
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rc = g_state_change_thread.Start();
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}
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}*/
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/* Enable USB communication. */
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if (R_SUCCEEDED(rc)) {
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rc = usbDsInterface_EnableInterface(g_interface);
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}
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if (R_SUCCEEDED(rc) && GetRuntimeFirmwareVersion() >= FirmwareVersion_500) {
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rc = usbDsEnable();
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}
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if (R_FAILED(rc)) {
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/* TODO: Should I not abort here? */
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std::abort();
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// /* Cleanup, just in case. */
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// TmaUsbComms::Finalize();
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// res = TmaConnResult::Failure;
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}
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g_initialized = true;
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return res;
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}
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TmaConnResult TmaUsbComms::Finalize() {
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Result rc = 0;
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/* We must have initialized before calling finalize. */
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if (!g_initialized) {
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std::abort();
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}
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/* Kill the state change thread. */
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g_state_change_manager->RequestStop();
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if (R_FAILED(g_state_change_thread.Join())) {
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std::abort();
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}
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CancelComms();
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if (R_SUCCEEDED(rc)) {
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usbDsExit();
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}
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g_initialized = false;
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return R_SUCCEEDED(rc) ? TmaConnResult::Success : TmaConnResult::ConnectionFailure;
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}
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void TmaUsbComms::CancelComms() {
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if (!g_initialized) {
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return;
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}
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usbDsEndpoint_Cancel(g_endpoint_in);
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usbDsEndpoint_Cancel(g_endpoint_out);
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}
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void TmaUsbComms::SetStateChangeCallback(void (*callback)(void *, u32), void *arg) {
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g_state_change_callback = callback;
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g_state_change_arg = arg;
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}
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Result TmaUsbComms::UsbXfer(UsbDsEndpoint *ep, size_t *out_xferd, void *buf, size_t size) {
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Result rc = 0;
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u32 urbId = 0;
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u32 total_xferd = 0;
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UsbDsReportData reportdata;
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if (size) {
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/* Start transfer. */
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rc = usbDsEndpoint_PostBufferAsync(ep, buf, size, &urbId);
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if (R_FAILED(rc)) return rc;
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/* Wait for transfer to complete. */
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eventWait(&ep->CompletionEvent, U64_MAX);
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eventClear(&ep->CompletionEvent);
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rc = usbDsEndpoint_GetReportData(ep, &reportdata);
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if (R_FAILED(rc)) return rc;
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rc = usbDsParseReportData(&reportdata, urbId, NULL, &total_xferd);
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if (R_FAILED(rc)) return rc;
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}
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if (out_xferd) *out_xferd = total_xferd;
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return rc;
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}
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TmaConnResult TmaUsbComms::ReceivePacket(TmaPacket *packet) {
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std::scoped_lock<HosMutex> lk{g_recv_mutex};
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TmaConnResult res = TmaConnResult::Success;
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if (!g_initialized || packet == nullptr) {
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return TmaConnResult::GeneralFailure;
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}
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/* Read the header. */
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size_t read = 0;
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if (R_SUCCEEDED(UsbXfer(g_endpoint_out, &read, g_header_buffer, sizeof(TmaPacket::Header)))) {
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packet->CopyHeaderFrom(reinterpret_cast<TmaPacket::Header *>(g_header_buffer));
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} else {
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res = TmaConnResult::GeneralFailure;
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}
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/* Validate the read header data. */
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if (res == TmaConnResult::Success) {
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if (read != sizeof(TmaPacket::Header) || !packet->IsHeaderValid()) {
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res = TmaConnResult::GeneralFailure;
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}
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}
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/* Read the body! */
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if (res == TmaConnResult::Success) {
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const u32 body_len = packet->GetBodyLength();
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if (0 < body_len) {
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if (body_len <= sizeof(g_recv_data_buf)) {
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if (R_SUCCEEDED(UsbXfer(g_endpoint_out, &read, g_recv_data_buf, body_len))) {
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if (read == body_len) {
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res = packet->CopyBodyFrom(g_recv_data_buf, body_len);
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} else {
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res = TmaConnResult::GeneralFailure;
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}
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}
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} else {
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res = TmaConnResult::GeneralFailure;
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}
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}
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}
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/* Validate the body. */
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if (res == TmaConnResult::Success) {
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if (!packet->IsBodyValid()) {
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res = TmaConnResult::GeneralFailure;
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}
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}
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if (res == TmaConnResult::Success) {
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packet->ClearOffset();
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}
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return res;
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}
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TmaConnResult TmaUsbComms::SendPacket(TmaPacket *packet) {
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std::scoped_lock<HosMutex> lk{g_send_mutex};
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TmaConnResult res = TmaConnResult::Success;
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if (!g_initialized || packet == nullptr) {
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return TmaConnResult::GeneralFailure;
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}
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/* Ensure our packets have the correct checksums. */
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packet->SetChecksums();
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/* Send the packet. */
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size_t written = 0;
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const u32 body_len = packet->GetBodyLength();
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if (body_len <= sizeof(g_send_data_buf)) {
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/* Copy header to send buffer. */
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packet->CopyHeaderTo(g_send_data_buf);
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/* Send the packet header. */
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if (R_SUCCEEDED(UsbXfer(g_endpoint_in, &written, g_send_data_buf, sizeof(TmaPacket::Header)))) {
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if (written == sizeof(TmaPacket::Header)) {
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res = TmaConnResult::Success;
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} else {
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res = TmaConnResult::GeneralFailure;
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}
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} else {
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res = TmaConnResult::GeneralFailure;
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}
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if (res == TmaConnResult::Success) {
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/* Copy body to send buffer. */
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packet->CopyBodyTo(g_send_data_buf);
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/* Send the packet body. */
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if (R_SUCCEEDED(UsbXfer(g_endpoint_in, &written, g_send_data_buf, body_len))) {
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if (written == body_len) {
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res = TmaConnResult::Success;
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} else {
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res = TmaConnResult::GeneralFailure;
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}
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} else {
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res = TmaConnResult::GeneralFailure;
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}
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}
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} else {
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res = TmaConnResult::GeneralFailure;
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}
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return res;
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}
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